Showing 14,752 of 14,752 total issues
Refactor this method to reduce its Cognitive Complexity from 102 to the 15 allowed. Open
public void monitoredAssign(final String name, final BufferedDataTable table,- Read upRead up
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Cognitive Complexity is a measure of how hard the control flow of a method is to understand. Methods with high Cognitive Complexity will be difficult to maintain.
See
Define a constant instead of duplicating this literal "abstractText" 4 times. Open
final LiteratureItem item0 = new LiteratureItem(Type.M, "author", 0, "title", "abstractText", "journal", "volume",- Read upRead up
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Duplicated string literals make the process of refactoring error-prone, since you must be sure to update all occurrences.
On the other hand, constants can be referenced from many places, but only need to be updated in a single place.
Noncompliant Code Example
With the default threshold of 3:
public void run() {
prepare("action1"); // Noncompliant - "action1" is duplicated 3 times
execute("action1");
release("action1");
}
@SuppressWarning("all") // Compliant - annotations are excluded
private void method1() { /* ... */ }
@SuppressWarning("all")
private void method2() { /* ... */ }
public String method3(String a) {
System.out.println("'" + a + "'"); // Compliant - literal "'" has less than 5 characters and is excluded
return ""; // Compliant - literal "" has less than 5 characters and is excluded
}
Compliant Solution
private static final String ACTION_1 = "action1"; // Compliant
public void run() {
prepare(ACTION_1); // Compliant
execute(ACTION_1);
release(ACTION_1);
}
Exceptions
To prevent generating some false-positives, literals having less than 5 characters are excluded.
Define a constant instead of duplicating this literal "comment" 12 times. Open
"issue", 0, 0, "website", 0, "comment", 0, "dbuuid");- Read upRead up
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Duplicated string literals make the process of refactoring error-prone, since you must be sure to update all occurrences.
On the other hand, constants can be referenced from many places, but only need to be updated in a single place.
Noncompliant Code Example
With the default threshold of 3:
public void run() {
prepare("action1"); // Noncompliant - "action1" is duplicated 3 times
execute("action1");
release("action1");
}
@SuppressWarning("all") // Compliant - annotations are excluded
private void method1() { /* ... */ }
@SuppressWarning("all")
private void method2() { /* ... */ }
public String method3(String a) {
System.out.println("'" + a + "'"); // Compliant - literal "'" has less than 5 characters and is excluded
return ""; // Compliant - literal "" has less than 5 characters and is excluded
}
Compliant Solution
private static final String ACTION_1 = "action1"; // Compliant
public void run() {
prepare(ACTION_1); // Compliant
execute(ACTION_1);
release(ACTION_1);
}
Exceptions
To prevent generating some false-positives, literals having less than 5 characters are excluded.
Define a constant instead of duplicating this literal "attribute" 10 times. Open
schema.addIntAttribute("attribute");- Read upRead up
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Duplicated string literals make the process of refactoring error-prone, since you must be sure to update all occurrences.
On the other hand, constants can be referenced from many places, but only need to be updated in a single place.
Noncompliant Code Example
With the default threshold of 3:
public void run() {
prepare("action1"); // Noncompliant - "action1" is duplicated 3 times
execute("action1");
release("action1");
}
@SuppressWarning("all") // Compliant - annotations are excluded
private void method1() { /* ... */ }
@SuppressWarning("all")
private void method2() { /* ... */ }
public String method3(String a) {
System.out.println("'" + a + "'"); // Compliant - literal "'" has less than 5 characters and is excluded
return ""; // Compliant - literal "" has less than 5 characters and is excluded
}
Compliant Solution
private static final String ACTION_1 = "action1"; // Compliant
public void run() {
prepare(ACTION_1); // Compliant
execute(ACTION_1);
release(ACTION_1);
}
Exceptions
To prevent generating some false-positives, literals having less than 5 characters are excluded.
Define a constant instead of duplicating this literal "Hola mundo" 5 times. Open
tuple.setValue("Cadena", "Hola mundo");- Read upRead up
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Duplicated string literals make the process of refactoring error-prone, since you must be sure to update all occurrences.
On the other hand, constants can be referenced from many places, but only need to be updated in a single place.
Noncompliant Code Example
With the default threshold of 3:
public void run() {
prepare("action1"); // Noncompliant - "action1" is duplicated 3 times
execute("action1");
release("action1");
}
@SuppressWarning("all") // Compliant - annotations are excluded
private void method1() { /* ... */ }
@SuppressWarning("all")
private void method2() { /* ... */ }
public String method3(String a) {
System.out.println("'" + a + "'"); // Compliant - literal "'" has less than 5 characters and is excluded
return ""; // Compliant - literal "" has less than 5 characters and is excluded
}
Compliant Solution
private static final String ACTION_1 = "action1"; // Compliant
public void run() {
prepare(ACTION_1); // Compliant
execute(ACTION_1);
release(ACTION_1);
}
Exceptions
To prevent generating some false-positives, literals having less than 5 characters are excluded.
Define a constant instead of duplicating this literal "category" 10 times. Open
final ParamXml param2 = new ParamXml("name", false, 0.0, 0.0, 0.0, 1.0, 2.0, 3.0, "category", "unit");- Read upRead up
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Duplicated string literals make the process of refactoring error-prone, since you must be sure to update all occurrences.
On the other hand, constants can be referenced from many places, but only need to be updated in a single place.
Noncompliant Code Example
With the default threshold of 3:
public void run() {
prepare("action1"); // Noncompliant - "action1" is duplicated 3 times
execute("action1");
release("action1");
}
@SuppressWarning("all") // Compliant - annotations are excluded
private void method1() { /* ... */ }
@SuppressWarning("all")
private void method2() { /* ... */ }
public String method3(String a) {
System.out.println("'" + a + "'"); // Compliant - literal "'" has less than 5 characters and is excluded
return ""; // Compliant - literal "" has less than 5 characters and is excluded
}
Compliant Solution
private static final String ACTION_1 = "action1"; // Compliant
public void run() {
prepare(ACTION_1); // Compliant
execute(ACTION_1);
release(ACTION_1);
}
Exceptions
To prevent generating some false-positives, literals having less than 5 characters are excluded.
Add a nested comment explaining why this method is empty, throw an UnsupportedOperationException or complete the implementation. Open
protected void saveSettingsTo(final NodeSettingsWO settings) {- Read upRead up
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There are several reasons for a method not to have a method body:
- It is an unintentional omission, and should be fixed to prevent an unexpected behavior in production.
- It is not yet, or never will be, supported. In this case an
UnsupportedOperationExceptionshould be thrown. - The method is an intentionally-blank override. In this case a nested comment should explain the reason for the blank override.
Noncompliant Code Example
public void doSomething() {
}
public void doSomethingElse() {
}
Compliant Solution
@Override
public void doSomething() {
// Do nothing because of X and Y.
}
@Override
public void doSomethingElse() {
throw new UnsupportedOperationException();
}
Exceptions
Default (no-argument) constructors are ignored when there are other constructors in the class, as are empty methods in abstract classes.
public abstract class Animal {
void speak() { // default implementation ignored
}
}
Add a nested comment explaining why this method is empty, throw an UnsupportedOperationException or complete the implementation. Open
protected void onClose() {- Read upRead up
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There are several reasons for a method not to have a method body:
- It is an unintentional omission, and should be fixed to prevent an unexpected behavior in production.
- It is not yet, or never will be, supported. In this case an
UnsupportedOperationExceptionshould be thrown. - The method is an intentionally-blank override. In this case a nested comment should explain the reason for the blank override.
Noncompliant Code Example
public void doSomething() {
}
public void doSomethingElse() {
}
Compliant Solution
@Override
public void doSomething() {
// Do nothing because of X and Y.
}
@Override
public void doSomethingElse() {
throw new UnsupportedOperationException();
}
Exceptions
Default (no-argument) constructors are ignored when there are other constructors in the class, as are empty methods in abstract classes.
public abstract class Animal {
void speak() { // default implementation ignored
}
}
Define a constant instead of duplicating this literal "" 12 times. Open
buffer.append("</td>");- Read upRead up
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Duplicated string literals make the process of refactoring error-prone, since you must be sure to update all occurrences.
On the other hand, constants can be referenced from many places, but only need to be updated in a single place.
Noncompliant Code Example
With the default threshold of 3:
public void run() {
prepare("action1"); // Noncompliant - "action1" is duplicated 3 times
execute("action1");
release("action1");
}
@SuppressWarning("all") // Compliant - annotations are excluded
private void method1() { /* ... */ }
@SuppressWarning("all")
private void method2() { /* ... */ }
public String method3(String a) {
System.out.println("'" + a + "'"); // Compliant - literal "'" has less than 5 characters and is excluded
return ""; // Compliant - literal "" has less than 5 characters and is excluded
}
Compliant Solution
private static final String ACTION_1 = "action1"; // Compliant
public void run() {
prepare(ACTION_1); // Compliant
execute(ACTION_1);
release(ACTION_1);
}
Exceptions
To prevent generating some false-positives, literals having less than 5 characters are excluded.
Define a constant instead of duplicating this literal "http://www.bfr.bund.de/PCML-1_0" 3 times. Open
new javax.xml.namespace.QName("http://www.bfr.bund.de/PCML-1_0", "ProcessChain");- Read upRead up
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Duplicated string literals make the process of refactoring error-prone, since you must be sure to update all occurrences.
On the other hand, constants can be referenced from many places, but only need to be updated in a single place.
Noncompliant Code Example
With the default threshold of 3:
public void run() {
prepare("action1"); // Noncompliant - "action1" is duplicated 3 times
execute("action1");
release("action1");
}
@SuppressWarning("all") // Compliant - annotations are excluded
private void method1() { /* ... */ }
@SuppressWarning("all")
private void method2() { /* ... */ }
public String method3(String a) {
System.out.println("'" + a + "'"); // Compliant - literal "'" has less than 5 characters and is excluded
return ""; // Compliant - literal "" has less than 5 characters and is excluded
}
Compliant Solution
private static final String ACTION_1 = "action1"; // Compliant
public void run() {
prepare(ACTION_1); // Compliant
execute(ACTION_1);
release(ACTION_1);
}
Exceptions
To prevent generating some false-positives, literals having less than 5 characters are excluded.
Define a constant instead of duplicating this literal "http://www.bfr.bund.de/PCML-1_0" 5 times. Open
new javax.xml.namespace.QName("http://www.bfr.bund.de/PCML-1_0", "DataTable");- Read upRead up
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Duplicated string literals make the process of refactoring error-prone, since you must be sure to update all occurrences.
On the other hand, constants can be referenced from many places, but only need to be updated in a single place.
Noncompliant Code Example
With the default threshold of 3:
public void run() {
prepare("action1"); // Noncompliant - "action1" is duplicated 3 times
execute("action1");
release("action1");
}
@SuppressWarning("all") // Compliant - annotations are excluded
private void method1() { /* ... */ }
@SuppressWarning("all")
private void method2() { /* ... */ }
public String method3(String a) {
System.out.println("'" + a + "'"); // Compliant - literal "'" has less than 5 characters and is excluded
return ""; // Compliant - literal "" has less than 5 characters and is excluded
}
Compliant Solution
private static final String ACTION_1 = "action1"; // Compliant
public void run() {
prepare(ACTION_1); // Compliant
execute(ACTION_1);
release(ACTION_1);
}
Exceptions
To prevent generating some false-positives, literals having less than 5 characters are excluded.
Make the enclosing method "static" or remove this set. Open
Activator.context = bundleContext;- Read upRead up
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Correctly updating a static field from a non-static method is tricky to get right and could easily lead to bugs if there are multiple
class instances and/or multiple threads in play. Ideally, static fields are only updated from synchronized static
methods.
This rule raises an issue each time a static field is updated from a non-static method.
Noncompliant Code Example
public class MyClass {
private static int count = 0;
public void doSomething() {
//...
count++; // Noncompliant
}
}
Rename this constant name to match the regular expression '^[A-Z][A-Z0-9]*(_[A-Z0-9]+)*$'. Open
Model_Reference_Description_Link,- Read upRead up
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Shared coding conventions allow teams to collaborate efficiently. This rule checks that all constant names match a provided regular expression.
Noncompliant Code Example
With the default regular expression ^[A-Z][A-Z0-9]*(_[A-Z0-9]+)*$:
public class MyClass {
public static final int first = 1;
}
public enum MyEnum {
first;
}
Compliant Solution
public class MyClass {
public static final int FIRST = 1;
}
public enum MyEnum {
FIRST;
}
Define a constant instead of duplicating this literal "Generic model" 4 times. Open
.modelCategory(new ModelCategory().modelClass("Generic model"))- Read upRead up
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Duplicated string literals make the process of refactoring error-prone, since you must be sure to update all occurrences.
On the other hand, constants can be referenced from many places, but only need to be updated in a single place.
Noncompliant Code Example
With the default threshold of 3:
public void run() {
prepare("action1"); // Noncompliant - "action1" is duplicated 3 times
execute("action1");
release("action1");
}
@SuppressWarning("all") // Compliant - annotations are excluded
private void method1() { /* ... */ }
@SuppressWarning("all")
private void method2() { /* ... */ }
public String method3(String a) {
System.out.println("'" + a + "'"); // Compliant - literal "'" has less than 5 characters and is excluded
return ""; // Compliant - literal "" has less than 5 characters and is excluded
}
Compliant Solution
private static final String ACTION_1 = "action1"; // Compliant
public void run() {
prepare(ACTION_1); // Compliant
execute(ACTION_1);
release(ACTION_1);
}
Exceptions
To prevent generating some false-positives, literals having less than 5 characters are excluded.
Refactor this method to reduce its Cognitive Complexity from 33 to the 15 allowed. Open
public DataArray getParameter() {- Read upRead up
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Cognitive Complexity is a measure of how hard the control flow of a method is to understand. Methods with high Cognitive Complexity will be difficult to maintain.
See
Use try-with-resources or close this "Stream" in a "finally" clause. Open
if (Files.notExists(environment) || !Files.list(environment).findAny().isPresent())- Read upRead up
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Connections, streams, files, and other classes that implement the Closeable interface or its super-interface,
AutoCloseable, needs to be closed after use. Further, that close call must be made in a finally block otherwise
an exception could keep the call from being made. Preferably, when class implements AutoCloseable, resource should be created using
"try-with-resources" pattern and will be closed automatically.
Failure to properly close resources will result in a resource leak which could bring first the application and then perhaps the box the application is on to their knees.
Noncompliant Code Example
private void readTheFile() throws IOException {
Path path = Paths.get(this.fileName);
BufferedReader reader = Files.newBufferedReader(path, this.charset);
// ...
reader.close(); // Noncompliant
// ...
Files.lines("input.txt").forEach(System.out::println); // Noncompliant: The stream needs to be closed
}
private void doSomething() {
OutputStream stream = null;
try {
for (String property : propertyList) {
stream = new FileOutputStream("myfile.txt"); // Noncompliant
// ...
}
} catch (Exception e) {
// ...
} finally {
stream.close(); // Multiple streams were opened. Only the last is closed.
}
}
Compliant Solution
private void readTheFile(String fileName) throws IOException {
Path path = Paths.get(fileName);
try (BufferedReader reader = Files.newBufferedReader(path, StandardCharsets.UTF_8)) {
reader.readLine();
// ...
}
// ..
try (Stream<String> input = Files.lines("input.txt")) {
input.forEach(System.out::println);
}
}
private void doSomething() {
OutputStream stream = null;
try {
stream = new FileOutputStream("myfile.txt");
for (String property : propertyList) {
// ...
}
} catch (Exception e) {
// ...
} finally {
stream.close();
}
}
Exceptions
Instances of the following classes are ignored by this rule because close has no effect:
-
java.io.ByteArrayOutputStream -
java.io.ByteArrayInputStream -
java.io.CharArrayReader -
java.io.CharArrayWriter -
java.io.StringReader -
java.io.StringWriter
Java 7 introduced the try-with-resources statement, which implicitly closes Closeables. All resources opened in a try-with-resources
statement are ignored by this rule.
try (BufferedReader br = new BufferedReader(new FileReader(fileName))) {
//...
}
catch ( ... ) {
//...
}
See
- MITRE, CWE-459 - Incomplete Cleanup
- MITRE, CWE-772 - Missing Release of Resource after Effective Lifetime
- CERT, FIO04-J. - Release resources when they are no longer needed
- CERT, FIO42-C. - Close files when they are no longer needed
- Try With Resources
Rename this class. Open
public class Model1Schema extends de.bund.bfr.knime.pmm.common.pmmtablemodel.Model1Schema {- Read upRead up
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While it's perfectly legal to give a class the same simple name as a class in another package that it extends or interface it implements, it's confusing and could cause problems in the future.
Noncompliant Code Example
package my.mypackage;
public class Foo implements a.b.Foo { // Noncompliant
Compliant Solution
package my.mypackage;
public class FooJr implements a.b.Foo {
Rename this class. Open
public class Model2Schema extends de.bund.bfr.knime.pmm.common.pmmtablemodel.Model2Schema {- Read upRead up
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While it's perfectly legal to give a class the same simple name as a class in another package that it extends or interface it implements, it's confusing and could cause problems in the future.
Noncompliant Code Example
package my.mypackage;
public class Foo implements a.b.Foo { // Noncompliant
Compliant Solution
package my.mypackage;
public class FooJr implements a.b.Foo {
Refactor this method to reduce its Cognitive Complexity from 30 to the 15 allowed. Open
public double[][] getPoints(String paramX, String paramY, String unitX,- Read upRead up
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Cognitive Complexity is a measure of how hard the control flow of a method is to understand. Methods with high Cognitive Complexity will be difficult to maintain.
See
Refactor this method to reduce its Cognitive Complexity from 24 to the 15 allowed. Open
private Double getValueX(String paramX, String paramY, String unitX,- Read upRead up
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Cognitive Complexity is a measure of how hard the control flow of a method is to understand. Methods with high Cognitive Complexity will be difficult to maintain.